Grid Added Value to Address Malaria

Through this paper, we call for a distributed, internet-based collaboration to address one of the worst plagues of our present world, malaria. The spirit is a non-proprietary peer-production of information-embedding goods. And we propose to use the grid technology to enable such a world wide "open source" like collaboration. The first step towards this vision has been achieved during the summer on the EGEE grid infrastructure where 46 million ligands were docked for a total amount of 80 CPU years in 6 weeks in the quest for new drugs.Comment: 7 pages, 1 figure, 6th IEEE International Symposium on Cluster Computing and the Grid, Singapore, 16-19 may 2006, to appear in the proceeding

Replication and update of molecular biology databases in a grid environment

PCSV, présenté par V. Breton, à paraître dans les proceedingsUpdate of molecular biology databases is a growing burden on the biomedical research community. As the grid allows to share and replicate data, we propose a service to automatically update the biology databases from a single changing reference using web services. In this paper we report the components, the architecture and the deployment of the update service on the french RUGBI grid infrastructure. RUGBI is a computing grid infrastructure based on existing middleware and technologies for the community of scientists in bioinformatics

Large scale deployment of molecular docking application on computational grid infrastructures for combating malaria

PCSVInternational audienceComputational grids are solutions for several biological applications like virtual screening or molecular dynamics where large amounts of computing power and storage are required. The WISDOM project successfully deployed virtual screening at large scale on EGEE grid infrastructures in the summer 2005 and achieved 46 million dockings in 45 days, which is equivalent to 80 CPU years. WISDOM is one good example of a successful deployment of an embarrassingly parallel application. In this paper, we describe the improvements in our deployment. We screened ZINC database against four targets implicated in malaria. During more than 2 months and a half, we have achieved 140 million dockings, representing an average throughput of almost 80,000 dockings per hour. This was made possible by the availability of thousands of CPUs through different infrastructures worldwide. Through the acquired experience, the WISDOM production environment is evolving to enable an easy and fault-tolerant deployment of biological tool

Ultra-low pressure sensor for neonatal resuscitator

AbstractA Venturi-type flow sensor has been designed and fabricated for neonatal respiratory assistance to control airway pressure and tidal volume. As the low flow range and sensing principle require the measurement of correspondingly very low pressures, a very responsive sensor, based on a polymer membrane acting onto a piezoresistive cantilever force sensor based on low-temperature co-fired ceramic (LTCC), was developed. This paper details the 3D modelling, manufacture, assembly and characterisation of the sensor. Compared to expensive and fragile MEMS-based devices, this sensor, based on LTCC, thick-film technology and polymer parts, provides an accurate and robust, yet low-cost alternative

Les grilles pour le développement médical

PCSV, présenté par V. Breton, à paraître dans les Comptes-Rendu de la ConférenceLe développement récent des sciences et technologies de l'information et de la communication permet aujourd'hui la création de véritables infrastructures pour le calcul et le stockage de données hétérogènes à l'échelle régionale, nationale et internationale. Ces infrastructures, appelées grilles informatiques, permettront bientôt d'utiliser les ressources informatiques mutualisées avec autant de facilité que nous utilisons aujourd'hui l'électricité. L'utilisation des grilles afin d'accélérer la découverte de médicaments est une voie très prometteuse pour l'avenir. Par cette approche in silico, le nombre de molécules ainsi que la vitesse de test peuvent être grandement augmentés induisant un coût moindre de développement de médicaments. Du 11 Juillet au 31 Août 2005, l'expérience WISDOM (Wide In Silico Docking On Malaria) a permis de tester rien moins qu'un million de ligands (médicaments potentiels) pour le traitement du paludisme: 1700 ordinateurs à travers le monde ont ainsi été associés à cette démarche permettant de réaliser en un mois ce qui aurait nécessité 80 ans sur un ordinateur classique. L'analyse des résultats est en cours. Par cette approche, on peut souhaiter également que les maladies orphelines puissent bénéficier d'un intérêt nouveau de la part des industries pharmaceutiques, à travers notamment la baisse du coût de développement d'un médicament, principal obstacle actuellement à leur mobilisation

La grille au service du développement médical en Afrique

PCSV, présenté par F. Jacq, pas de proceedingsObjectives: Telemedicine networks allow to train local physicians and to improve diagnosis by exchanging medical data. But the set-up of multipoint dynamic telemedicine requires moving towards GRID technologies. The objective is to develop telemedicine services for physicians from Burkina Faso and France with the perspective of setting up a grid infrastructure between the participating medical sites. Methods: A web site to exchange diagnosis on diabetic retinopathy was developed in PHP. Another application using web services was developed to exchange patient information on ophthalmology between two databases. Results: The main difficulty comes from limited resources in developing countries including staff skills, bandwidth and funding. But the collaboration with dispensaries opened a door to enhanced collaboration between physicians of France and Burkina Faso Conclusions: These applications are designed with the aim of their use on grids which opens the perspective of multipoint dynamic telemedicine. We are developing a new generation of telemedicine service using experience acquired in the last two years

Grid enabled high throughput virtual screening against four different targets implicated in malaria

PCSVInternational audienceAfter having deployed a first data challenge on malaria and a second one on avian flu, respectively in summer 2005 and spring 2006, we are demonstrating here again how efficiently the computational grids can be used to produce massive docking data at a high-throughput. During more than 2 months and a half, we have achieved at least 140 million dockings, representing an average throughput of almost 80,000 dockings per hour. This was made possible by the availability of thousands of CPUs through different infrastructures worldwide. Through the acquired experience, the WISDOM production environment is evolving to enable an easy and fault-tolerant deployment of biological tools; in this case it is the FlexX commercial docking software which is used to dock the whole ZINC database against 4 different targets

Demonstration of In Silico docking at a large scale on grid infrastructure

présenté par N. Jac

Grid enabled virtual screening against malaria

34 pages, 5 figures, 3 tables, to appear in Journal of Grid Computing - PCSV, à paraître dans Journal of Grid ComputingWISDOM is an international initiative to enable a virtual screening pipeline on a grid infrastructure. Its first attempt was to deploy large scale in silico docking on a public grid infrastructure. Protein-ligand docking is about computing the binding energy of a protein target to a library of potential drugs using a scoring algorithm. Previous deployments were either limited to one cluster, to grids of clusters in the tightly protected environment of a pharmaceutical laboratory or to pervasive grids. The first large scale docking experiment ran on the EGEE grid production service from 11 July 2005 to 19 August 2005 against targets relevant to research on malaria and saw over 41 million compounds docked for the equivalent of 80 years of CPU time. Up to 1,700 computers were simultaneously used in 15 countries around the world. Issues related to the deployment and the monitoring of the in silico docking experiment as well as experience with grid operation and services are reported in the paper. The main problem encountered for such a large scale deployment was the grid infrastructure stability. Although the overall success rate was above 80%, a lot of monitoring and supervision was still required at the application level to resubmit the jobs that failed. But the experiment demonstrated how grid infrastructures have a tremendous capacity to mobilize very large CPU resources for well targeted goals during a significant period of time. This success leads to a second computing challenge targeting Avian Flu neuraminidase N1